ExtLib.Tactics.EqDep
From Coq.Classes Require Import EquivDec.
Require Import ExtLib.Structures.EqDep.
From Coq.Logic Require Eqdep_dec.
Set Implicit Arguments.
Set Strict Implicit.
Section Classes.
Context {A : Type}.
Context {dec : EqDec A (@eq A)}.
Theorem UIP_refl : forall {x : A} (p1 : x = x), p1 = refl_equal _.
intros.
eapply Eqdep_dec.UIP_dec. apply equiv_dec.
Qed.
Theorem UIP_equal : forall {x y : A} (p1 p2 : x = y), p1 = p2.
eapply Eqdep_dec.UIP_dec. apply equiv_dec.
Qed.
Lemma inj_pair2 :
forall (P:A -> Type) (p:A) (x y:P p),
existT P p x = existT P p y -> x = y.
Proof.
intros. eapply Eqdep_dec.inj_pair2_eq_dec; auto.
Qed.
End Classes.
Ltac notVar X :=
match X with
| _ _ => idtac
| _ _ _ => idtac
| _ _ _ _ => idtac
| _ _ _ _ _ => idtac
| _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ _ _ _ => idtac
end.
Ltac gen_refl :=
repeat match goal with
| H : context [ @eq_refl ?X ?Y ] |- _ =>
generalize dependent (@eq_refl X Y)
| |- context [ @eq_refl ?X ?Y ] =>
generalize dependent (@eq_refl X Y)
end.
Ltac uip_all :=
repeat match goal with
| [ H : _ = _ |- _ ] => rewrite H
| [ |- context [ match ?X in _ = t return _ with
| refl_equal => _
end ] ] => notVar X; generalize X
| [ |- context [ eq_rect_r _ _ ?X ] ] => notVar X; generalize X
end;
intros;
repeat match goal with
| [ H : ?X = ?X |- _ ] => rewrite (UIP_refl H) in *
| [ _ : context [ ?H ] |- _ ] =>
rewrite (UIP_refl H) in *
| [ |- context [ ?H ] ] =>
rewrite (UIP_refl H) in *
end.
Ltac uip_all' :=
repeat match goal with
| [ H : _ = _ |- _ ] => rewrite H
| [ |- context [ match ?X in _ = t return _ with
| refl_equal => _
end ] ] => notVar X; generalize X
| [ |- context [ eq_rect_r _ _ ?X ] ] => notVar X; generalize X
end;
intros;
repeat match goal with
| [ H : ?X = ?X |- _ ] =>
generalize dependent H;
let pf := fresh in
intro pf; rewrite (UIP_refl pf) in * ;
try clear pf
end.
Export EquivDec.
Require Import ExtLib.Structures.EqDep.
From Coq.Logic Require Eqdep_dec.
Set Implicit Arguments.
Set Strict Implicit.
Section Classes.
Context {A : Type}.
Context {dec : EqDec A (@eq A)}.
Theorem UIP_refl : forall {x : A} (p1 : x = x), p1 = refl_equal _.
intros.
eapply Eqdep_dec.UIP_dec. apply equiv_dec.
Qed.
Theorem UIP_equal : forall {x y : A} (p1 p2 : x = y), p1 = p2.
eapply Eqdep_dec.UIP_dec. apply equiv_dec.
Qed.
Lemma inj_pair2 :
forall (P:A -> Type) (p:A) (x y:P p),
existT P p x = existT P p y -> x = y.
Proof.
intros. eapply Eqdep_dec.inj_pair2_eq_dec; auto.
Qed.
End Classes.
Ltac notVar X :=
match X with
| _ _ => idtac
| _ _ _ => idtac
| _ _ _ _ => idtac
| _ _ _ _ _ => idtac
| _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ _ _ => idtac
| _ _ _ _ _ _ _ _ _ _ _ _ _ _ => idtac
end.
Ltac gen_refl :=
repeat match goal with
| H : context [ @eq_refl ?X ?Y ] |- _ =>
generalize dependent (@eq_refl X Y)
| |- context [ @eq_refl ?X ?Y ] =>
generalize dependent (@eq_refl X Y)
end.
Ltac uip_all :=
repeat match goal with
| [ H : _ = _ |- _ ] => rewrite H
| [ |- context [ match ?X in _ = t return _ with
| refl_equal => _
end ] ] => notVar X; generalize X
| [ |- context [ eq_rect_r _ _ ?X ] ] => notVar X; generalize X
end;
intros;
repeat match goal with
| [ H : ?X = ?X |- _ ] => rewrite (UIP_refl H) in *
| [ _ : context [ ?H ] |- _ ] =>
rewrite (UIP_refl H) in *
| [ |- context [ ?H ] ] =>
rewrite (UIP_refl H) in *
end.
Ltac uip_all' :=
repeat match goal with
| [ H : _ = _ |- _ ] => rewrite H
| [ |- context [ match ?X in _ = t return _ with
| refl_equal => _
end ] ] => notVar X; generalize X
| [ |- context [ eq_rect_r _ _ ?X ] ] => notVar X; generalize X
end;
intros;
repeat match goal with
| [ H : ?X = ?X |- _ ] =>
generalize dependent H;
let pf := fresh in
intro pf; rewrite (UIP_refl pf) in * ;
try clear pf
end.
Export EquivDec.